How Generic Scale Invariance Influences Quantum and Classical Phase Transitions
TLDR
In this article, the authors discuss a paradigm that has become of increasing importance in the theory of quantum phase transitions, namely, the coupling of the order-parameter fluctuations to other soft modes and the resulting impossibility of constructing a simple Landau-Ginzburg-Wilson theory in terms of order parameter only.Abstract:
This review discusses a paradigm that has become of increasing importance in the theory of quantum phase transitions, namely, the coupling of the order-parameter fluctuations to other soft modes and the resulting impossibility of constructing a simple Landau-Ginzburg-Wilson theory in terms of the order parameter only. The soft modes in question are manifestations of generic scale invariance, i.e., the appearance of long-range order in whole regions in the phase diagram. The concept of generic scale invariance and its influence on critical behavior is explained using various examples, both classical and quantum mechanical. The peculiarities of quantum phase transitions are discussed, with emphasis on the fact that they are more susceptible to the effects of generic scale invariance than their classical counterparts. Explicit examples include the quantum ferromagnetic transition in metals, with or without quenched disorder; the metal-superconductor transition at zero temperature; and the quantum antiferromagnetic transition. Analogies with classical phase transitions in liquid crystals and classical fluids are pointed out, and a unifying conceptual framework is developed for all transitions that are influenced by generic scale invariance.read more
Citations
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Spatial emergence of off-diagonal long-range order throughout the BCS-BEC crossover
TL;DR: In this paper , the authors presented a systematic study of the two-particle reduced density matrix for a superfluid fermionic system undergoing the BCS-BEC crossover, when the entities to recede far apart from each other evolve with continuity from largely overlapping Cooper pairs in the bCS limit to dilute composite bosons in the BEC limit.
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Monte Carlo simulations of a disordered superconductor-metal quantum phase transition
Ahmed K. Ibrahim,Thomas Vojta +1 more
TL;DR: In this paper, the quantum phase transitions of a disordered nanowire from superconducting to metallic behavior were investigated by employing extensive Monte Carlo simulations, and strong numerical evidence for the critical behavior to be of infinite randomness type and to belong to the random transverse-field Ising universality class, as predicted by a recent strong disorder renormalization group calculation.
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Thinking transport as a twist
Cristian Giardinà,Jorge Kurchan +1 more
TL;DR: The determination of the conductivity of a deterministic or stochastic classical system coupled to reservoirs at its ends can be mapped onto the problem of computing the stiffness (the energy cost of twisting the boundaries) of a quantum-like system as mentioned in this paper.
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Anomalous Transport Behavior in Quantum Magnets
TL;DR: In this article, the authors give a pedagogical overview of the power law transport behavior in magnetic materials in both the magnetic and non-magnetic phases, and also put it in context by drawing parallels with unusual power-law transport behaviour in other systems.
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Quasi-averages in the solution of the classification problem for equilibriums of condensed media with a spontaneously broken symmetry
TL;DR: In this paper, a statistical approach for solving the classification problem for equilibriums of degenerate condensed media was developed. But it is not suitable for the classification of equilibria of various liquid crystals.
References
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